RU153511U1 - WATER TREATMENT SYSTEM - Google Patents

Abstract

1. The water treatment system, comprising a housing containing a source water supply pipe, a filter element, a purified water outlet pipe and a contaminant outflow pipe, characterized in that the filter element is configured as a predominantly horizontal drum filter configured to rotate around its axis, This drum filter has a built-in grill with a cell from 4 mm to 8 mm, which is covered with a micro grid with a cell from 40 microns to 100 microns, and on the outside of the drum filter flushing nozzles are made, the drum filter is also equipped with a pollution collection tray connected to the contamination outflow pipe outside the system. 2. The water treatment system according to claim 1, characterized in that the housing further comprises a water level monitoring unit. The water treatment system according to claim 1, characterized in that the neck of the drum filter is connected to the feed water supply unit, while the neck is supported by at least 2 rollers, and its second end is connected to a motor located on an external platform of the housing. The water treatment system according to claim 1, characterized in that the casing is equipped with a horizontal stiffener, made at a distance of 200-400 mm from the bottom of the casing. The water treatment system according to claim 1, characterized in that it further comprises a pump for pumping purified water. The water treatment system according to claim 1, characterized in that the grill and micro-grid of the drum filter are made of non-corrosive material. The water treatment system according to claim 1, characterized in that the number of washing nozzles is from 4 to 12.8. Water treatment system

Description

The invention relates to the field of purification of natural and waste waters, and can be used to purify water from suspended solids, in particular from mechanical impurities with a fraction of from 40 microns to 100 microns, as well as to remove related gases such as nitrogen, carbon dioxide, hydrogen sulfide and etc.

The prior art (RU 2356598 C1) discloses an open rapid filter for treating natural and wastewater, including a filter loading housing and a side pocket communicated between each other by a window, gutters, vibrators and a system of inlet and outlet pipelines with valves, with a vertical pipeline through the bottom valve is connected to the source water pipeline and from above with a tubular manifold mounted horizontally from above along the body, to the bottom of which tubular water distributors with bottom openings are perpendicularly attached placed on a baking sheet with a filter load mounted movably on rails attached by rods to the walls of the case, and vibrators are installed vertically in the filter load located at the bottom of the case directly to its entire height and length.

Known (RU 248265 C1) is a water intake filter containing a housing with a central shell with a pipe for connecting to the collector of the water intake system, filter elements, switchgear, filter regeneration device, while the filter element is a welded slotted screen made of V-shaped wire, with this section of each filter element has an ovality, the switchgear is a pipe with variable perforation, the regeneration device is made in the form of a return pipe second wash consisting of the collector and the pipes connected thereto, based on the stiffening ring and spaced ovality corresponding roundness of filter elements disposed on pipes with rows of conical nozzles deployed to the surface of the filter elements.

Known (RU 2464235 C2) is a natural and wastewater treatment plant including an electrocoagulator with an electrode system, a contact filter, a source water supply pipe, a filtered water discharge pipe and a wash water pipe. An electrocoagulator with an electrode system made of aluminum plates is built into the upper part of the contact filter housing, which consists of a two-layer loading, as the upper layer, flasks are used, crushed modified grades ODM-2F, grain size 2.3-3.5 mm, the layer height is 600-700 mm, and as the bottom layer - quartz sand with a grain size of 0.7-1.5 mm, also 600-700 mm high, and the electrocoagulator is connected to a power source, which is a photovoltaic module.

Also known (JP 2001334108 (A) is a filter (prototype) comprising a housing, inside which filtering means are located, the housing being provided with an insulated bottom part and separated from the other part of the internal volume of the housing by means of a dividing wall; filters are placed in the wall, each of which equipped with an opening device. The input of contaminated water is placed in the upper part of the housing, and the outlet of clean water is made with the possibility of withdrawing purified water outside the housing. pipes passing from the entrance of contaminated water to the outlet of purified water The filter medium inside the housing contains spherical particles whose size exceeds the width of the opening of each of the filters of the partition wall.

The disadvantages of the above devices are the design complexity and low efficiency of filter washing, uneven filtration and high flow rate of washing liquid during the regeneration of filter elements, large dimensions, as well as increased energy consumption.

The problem to which the claimed invention is directed is to create a small-sized water treatment system of a simplified design that allows you to effectively purify water with high productivity, characterized by a long service life and minimal costs for its preventive maintenance.

The technical result consists in increasing productivity, reducing the number of flushing systems, concomitant purification of water from gases dissolved in it, partial saturation of water with atmospheric oxygen.

The problem is solved by creating a water treatment system, which is a body equipped with a horizontal stiffener, and containing

- source water pipeline,

- a drum filter with a built-in grill with a cell from 4 mm to 8 mm, which is covered with a microgrid with a cell from 40 microns to 100 microns,

- washing nozzles made on the outside of the drum filter,

- the pipeline of removal of pollution,

- a pipeline for discharging purified water,

- a unit for monitoring the water level in the module,

where the source water pipe is connected to the neck of the drum filter, supported by at least 2 rollers, the second side of the drum filter is connected to the gearbox with the motor with the possibility of horizontal rotation, the drum filter is equipped with a tray for collecting dirt, connected to the drainage pipe for system limits.

Additionally, the device can be equipped with a pump for pumping purified water.

In an advantageous embodiment, the water treatment system is made in the form of a predominantly square-shaped body with preferred rib sizes from 900 to 1200 mm. The housing is preferably made of polypropylene sheet from 3 mm to 10 mm.

Additionally, compartments for installing purified water transfer pumps can be provided in the housing. The casing is supplied with the necessary technological holes for installing the source water pipeline, the drainage pipe, and the purified water drainage pipe.

In a particular embodiment, the housing is provided with a cover made, for example, of polypropylene.

The housing may be provided with a stiffening rib, made along the perimeter of the housing, mainly performed from the outside at a distance of 200 to 400 mm from the bottom.

The feed water supply pipe can be equipped with a pump if necessary.

In a preferred embodiment, the drum filter is made in a length of 300 mm to 600 mm and is made of polypropylene. A grill is built into the filter, made of any material that is not subject to corrosion, for example, stainless steel. On top of the grating is a microgrid made of woven material, also not subject to corrosion. The drum filter, as a rule, has a neck with a diameter of not more than 300 mm.

Flushing nozzles on the outside of the drum filter are preferably located above the drum filter and are equipped with a pump for supplying pressurized water.

In a preferred embodiment, the filter rests on 2 rollers with its neck, and on the other side is attached to the gearbox with a motor via a stainless steel shaft, which allows horizontal rotation of the drum filter. The preferred filter speed is from 10 to 20 revolutions per minute.

The number of flushing nozzles is from 4 to 12 pcs.

The node for monitoring the water level in the module in the preferred embodiment may be made in the form of a water level sensor connected to a pump for pumping water. The water level in the module is kept constant and is at least 100 mm from the bottom edge of the filter.

Figure 1 presents a General view of the water treatment system.

Figure 2 presents a side view of the water treatment system in section.

Figure 3 presents a top view of a drum filter in section. The following is an example of the implementation of the proposed technical solution, in no way limiting other possible ways of its implementation.

The water treatment system in Fig. 1 is a rectangular casing 1, equipped with a horizontal stiffener 2. The casing contains a pipe 3 supplying source water, equipped with a pump (not shown in the figure). The pipeline 3 is connected to the neck of the drum filter 4, arranged in accordance with the description above. The neck of the drum filter rests on two rollers 5 (not shown in the figure). At its second end, the drum filter is connected to a gearbox with a motor 6, while the gearbox with a motor is located on the outer surface of the housing 1. The drum filter is mounted mainly horizontally. The contamination discharge pipe is connected to the drum filter tray 4 (not shown in the figure). The system includes a purified water discharge pipe. The water level control unit in the module is made in the form of a control sensor and a submersible pump for pumping purified water (not shown in the figure). The drum filter contains a grid fitted with a microgrid 10 and a washing nozzle 11.

The system operates as follows. Contaminated water from fish tanks through the source water supply pipe 3 enters the neck of the drum filter 4. The drum filter 4 is rotated by a gearbox with motor 6 at a frequency of 10 to 20 revolutions per minute. Mechanical particles of impurities settle on the microgrid 10 and adhere to it on the inner side of the drum filter 4, clean water flows through the microgrid 10 and falls down under the filter to the bottom of the housing 1. Due to the rotation of the filter, the microgrid with adhered particles rises, where it falls under the nozzles 11 located on the outside of the drum filter. A stream of water from the nozzles 11 penetrates the microgrid 10 and flushes out all the settled dirt in the tray located inside the drum filter in its upper part, through which all the dirt with a part of the water is taken out by gravity outside the system. The water purified from mechanical impurities, passing through the microgrid of the drum filter, falls into the casing from a height of 100 mm - 200 mm onto the surface of the water located in the module, the level of which is maintained constant. When falling, water carries away part of the air, which in the form of many bubbles mixes in water. Bubbles of air are enriched in water with harmful gases, and rise to the surface. Thus, the degassing of water occurs. The water level control unit in the module keeps the water level constant.

The following are examples of private implementation of the claimed utility model, during the operation of which the claimed technical result is achieved.

An example of implementation No. 1

The water treatment system is made of polypropylene 3 mm thick in the form of a rectangular casing 1 with a rib size of 900 mm, equipped with a horizontal stiffening rib 8, made at a distance of 200 mm from the bottom of the casing 1. The casing contains a pipeline 3 supplying source water, equipped with a pump (not shown shown). The pipeline 3 is connected to the neck of a drum filter arranged in accordance with the description above. The neck of the drum filter rests on two rollers 5 (not shown in the figure). At its second end, the drum filter is connected to a gearbox with a motor 6, while the gearbox with a motor is located on the outer surface of the housing 1. The drum filter is mounted mainly horizontally. The length of the drum filter is 300 mm. The contamination discharge pipe is connected to the drum filter tray 4 (not shown in the figure). The system includes a purified water discharge pipe. The water level control unit in the module is made in the form of a control sensor and a submersible pump for pumping purified water (not shown in the figure). The drum filter contains a grate with a cell diameter of 4 mm, fitted with a microgrid with a cell diameter of 40 microns, and washing nozzles in an amount of 4 pieces.

The system works in full accordance with the above description of the operation of the device. Contaminated water from the fish tanks passes through the pipeline 3 for the supply of source water, enters the neck of the drum filter 4. The drum filter 4 is rotated by a gearbox with a motor 6 with a frequency of 10 revolutions per minute. Mechanical particles of contaminants larger than 40 microns are deposited on the microgrid 10 and adhere to it on the inner side of the drum filter 4, clean water flows through the microgrid 10 and falls down under the filter to the bottom of the housing 1. Due to the rotation of the filter, the microgrid with adhered particles rises up, where gets under the nozzles 11 located on the outside of the drum filter. A stream of water from the nozzles 11 penetrates the microgrid 10 and flushes out all the settled dirt in the tray located inside the drum filter in its upper part, through which all the dirt with a part of the water is taken out by gravity outside the system. The water purified from mechanical impurities, passing through the microgrid of the drum filter, falls into the casing from a height of 100 mm onto the surface of the water located in the module, the level of which is maintained constant. When falling, water carries away part of the air, which in the form of many bubbles mixes in water. Bubbles of air are enriched in water with harmful gases, and rise to the surface. Thus, the degassing of water occurs. The water level control unit in the module keeps the water level constant.

An example of implementation No. 2

The water treatment system is made of polypropylene with a thickness of 10 mm in the form of a rectangular casing 1 with a rib size of 1200 mm, equipped with a horizontal stiffening rib 8, made at a distance of 400 mm from the bottom of the casing 1. The casing contains a pipeline 3 supplying source water, equipped with a pump (not shown shown). The pipeline 3 is connected to the neck of a drum filter arranged in accordance with the description above. The neck of the drum filter rests on two rollers 5 (not shown in the figure). At its second end, the drum filter is connected to a gearbox with a motor 6, while the gearbox with a motor is located on the outer surface of the housing 1. The drum filter is mounted mainly horizontally. The length of the drum filter is 600 mm. The contamination discharge pipe is connected to the drum filter tray 4 (not shown in the figure). The system includes a purified water discharge pipe. The water level control unit in the module is made in the form of a control sensor and a submersible pump for pumping purified water (not shown in the figure). The drum filter contains a grate with a cell diameter of 8 mm, fitted with a microgrid with a cell diameter of 100 microns, and washing nozzles in the amount of 12 pieces.

The system works in full accordance with the above description of the operation of the device. Contaminated water from fish tanks passes through the pipeline 3 for the supply of source water, enters the neck of the drum filter 4. The drum filter 4 is rotated by a gearbox with a motor 6 with a frequency of 20 revolutions per minute. Mechanical particles of contaminants larger than 100 microns are deposited on the microgrid 10 and adhere to it on the inner side of the drum filter 4, clean water flows through the microgrid 10 and falls down under the filter to the bottom of the housing 1. Due to the rotation of the filter, the microgrid with adhered particles rises up, where gets under the nozzles 11 located on the outside of the drum filter. A stream of water from the nozzles 11 penetrates the microgrid 10 and flushes out all the settled dirt in the tray located inside the drum filter in its upper part, through which all the dirt with a part of the water is taken out by gravity outside the system. The water purified from mechanical impurities, passing through the microgrid of the drum filter, falls into the housing from a height of 200 mm onto the surface of the water located in the module, the level of which is maintained constant. When falling, water carries away part of the air, which in the form of many bubbles mixes in water. Bubbles of air are enriched in water with harmful gases, and rise to the surface. Thus, the degassing of water occurs. The water level control unit in the module keeps the water level constant.

The proposed water treatment system allows to increase the productivity of filtered water, to abandon special procedures for washing the filter included in the system, as the filter is constantly self-cleaning, and also to remove harmful gases from the water.

The filter can be widely used in the treatment of natural and waste water in various sectors of the economy.

Claims (12)

1. The water treatment system, comprising a housing containing a source water supply pipe, a filter element, a purified water outlet pipe and a contaminant outflow pipe, characterized in that the filter element is configured as a predominantly horizontal drum filter configured to rotate around its axis, This drum filter has a built-in grill with a cell from 4 mm to 8 mm, which is covered with a micro grid with a cell from 40 microns to 100 microns, and on the outside of the drum filter flushing nozzles are made, the drum filter is also equipped with a pollution collection tray connected to the contamination outflow pipe outside the system. 2. The water treatment system according to claim 1, characterized in that the housing further comprises a water level monitoring unit. 3. The water treatment system according to claim 1, characterized in that the neck of the drum filter is connected to the feed water supply unit, wherein the neck is supported by at least 2 rollers, and its second end is connected to a motor located on an external platform of the housing. 4. The water treatment system according to claim 1, characterized in that the housing is equipped with a horizontal stiffener, made at a distance of 200-400 mm from the bottom of the housing. 5. The water treatment system according to claim 1, characterized in that it further comprises a pump for pumping purified water. 6. The water treatment system according to claim 1, characterized in that the lattice and the microgrid of the drum filter are made of material not subject to corrosion. 7. The water treatment system according to claim 1, characterized in that the number of washing nozzles is from 4 to 12. 8. The water treatment system according to claim 2, characterized in that the node for monitoring the water level in the housing is made in the form of a water level sensor connected to a pump for draining water. 9. The water treatment system according to claim 1, characterized in that the drum filter is made from 300 mm to 600 mm long of polypropylene and its neck is not more than 300 mm in diameter. 10. The water treatment system according to claim 1, characterized in that the housing is made of polypropylene with a thickness of 3 mm to 10 mm, square in shape, with preferred rib sizes from 900 to 1200 mm. 11. The water treatment system according to claim 1, characterized in that the housing in its lower part is additionally equipped with compartments for installing pumps for the removal of purified water. 12. The water treatment system according to claim 1, characterized in that the housing is additionally equipped with a lid.

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